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ray/rllib/evaluation/metrics.py

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import collections
import logging
import numpy as np
from typing import Any, Dict, List, Optional, Tuple, TYPE_CHECKING, Union
import ray
from ray import ObjectRef
from ray.actor import ActorHandle
from ray.rllib.offline.off_policy_estimator import OffPolicyEstimate
from ray.rllib.policy.sample_batch import DEFAULT_POLICY_ID
from ray.rllib.utils.annotations import DeveloperAPI
from ray.rllib.utils.metrics.learner_info import LEARNER_STATS_KEY
from ray.rllib.utils.typing import GradInfoDict, LearnerStatsDict, ResultDict
if TYPE_CHECKING:
from ray.rllib.evaluation.rollout_worker import RolloutWorker
logger = logging.getLogger(__name__)
RolloutMetrics = DeveloperAPI(
collections.namedtuple(
"RolloutMetrics",
[
"episode_length",
"episode_reward",
"agent_rewards",
"custom_metrics",
"perf_stats",
"hist_data",
"media",
],
)
)
RolloutMetrics.__new__.__defaults__ = (0, 0, {}, {}, {}, {}, {})
def _extract_stats(stats: Dict, key: str) -> Dict[str, Any]:
if key in stats:
return stats[key]
multiagent_stats = {}
for k, v in stats.items():
if isinstance(v, dict):
if key in v:
multiagent_stats[k] = v[key]
return multiagent_stats
@DeveloperAPI
def get_learner_stats(grad_info: GradInfoDict) -> LearnerStatsDict:
"""Return optimization stats reported from the policy.
Example:
>>> grad_info = worker.learn_on_batch(samples)
{"td_error": [...], "learner_stats": {"vf_loss": ..., ...}}
>>> print(get_stats(grad_info))
{"vf_loss": ..., "policy_loss": ...}
"""
if LEARNER_STATS_KEY in grad_info:
return grad_info[LEARNER_STATS_KEY]
multiagent_stats = {}
for k, v in grad_info.items():
if type(v) is dict:
if LEARNER_STATS_KEY in v:
multiagent_stats[k] = v[LEARNER_STATS_KEY]
return multiagent_stats
@DeveloperAPI
def collect_metrics(
local_worker: Optional["RolloutWorker"] = None,
remote_workers: Optional[List[ActorHandle]] = None,
to_be_collected: Optional[List[ObjectRef]] = None,
timeout_seconds: int = 180,
keep_custom_metrics: bool = False,
) -> ResultDict:
"""Gathers episode metrics from RolloutWorker instances."""
if remote_workers is None:
remote_workers = []
if to_be_collected is None:
to_be_collected = []
episodes, to_be_collected = collect_episodes(
local_worker, remote_workers, to_be_collected, timeout_seconds=timeout_seconds
)
metrics = summarize_episodes(
episodes, episodes, keep_custom_metrics=keep_custom_metrics
)
return metrics
@DeveloperAPI
def collect_episodes(
local_worker: Optional["RolloutWorker"] = None,
remote_workers: Optional[List[ActorHandle]] = None,
to_be_collected: Optional[List[ObjectRef]] = None,
timeout_seconds: int = 180,
) -> Tuple[List[Union[RolloutMetrics, OffPolicyEstimate]], List[ObjectRef]]:
"""Gathers new episodes metrics tuples from the given evaluators."""
if remote_workers is None:
remote_workers = []
if to_be_collected is None:
to_be_collected = []
if remote_workers:
pending = [
a.apply.remote(lambda ev: ev.get_metrics()) for a in remote_workers
] + to_be_collected
collected, to_be_collected = ray.wait(
pending, num_returns=len(pending), timeout=timeout_seconds * 1.0
)
if pending and len(collected) == 0:
logger.warning(
"WARNING: collected no metrics in {} seconds".format(timeout_seconds)
)
metric_lists = ray.get(collected)
else:
metric_lists = []
if local_worker:
metric_lists.append(local_worker.get_metrics())
episodes = []
for metrics in metric_lists:
episodes.extend(metrics)
return episodes, to_be_collected
@DeveloperAPI
def summarize_episodes(
episodes: List[Union[RolloutMetrics, OffPolicyEstimate]],
new_episodes: List[Union[RolloutMetrics, OffPolicyEstimate]] = None,
keep_custom_metrics: bool = False,
) -> ResultDict:
"""Summarizes a set of episode metrics tuples.
Args:
episodes: smoothed set of episodes including historical ones
new_episodes: just the new episodes in this iteration. This must be
a subset of `episodes`. If None, assumes all episodes are new.
"""
if new_episodes is None:
new_episodes = episodes
episodes, estimates = _partition(episodes)
new_episodes, _ = _partition(new_episodes)
episode_rewards = []
episode_lengths = []
policy_rewards = collections.defaultdict(list)
custom_metrics = collections.defaultdict(list)
perf_stats = collections.defaultdict(list)
hist_stats = collections.defaultdict(list)
episode_media = collections.defaultdict(list)
for episode in episodes:
episode_lengths.append(episode.episode_length)
episode_rewards.append(episode.episode_reward)
for k, v in episode.custom_metrics.items():
custom_metrics[k].append(v)
for k, v in episode.perf_stats.items():
perf_stats[k].append(v)
for (_, policy_id), reward in episode.agent_rewards.items():
if policy_id != DEFAULT_POLICY_ID:
policy_rewards[policy_id].append(reward)
for k, v in episode.hist_data.items():
hist_stats[k] += v
for k, v in episode.media.items():
episode_media[k].append(v)
if episode_rewards:
min_reward = min(episode_rewards)
max_reward = max(episode_rewards)
avg_reward = np.mean(episode_rewards)
else:
min_reward = float("nan")
max_reward = float("nan")
avg_reward = float("nan")
if episode_lengths:
avg_length = np.mean(episode_lengths)
else:
avg_length = float("nan")
# Show as histogram distributions.
hist_stats["episode_reward"] = episode_rewards
hist_stats["episode_lengths"] = episode_lengths
policy_reward_min = {}
policy_reward_mean = {}
policy_reward_max = {}
for policy_id, rewards in policy_rewards.copy().items():
policy_reward_min[policy_id] = np.min(rewards)
policy_reward_mean[policy_id] = np.mean(rewards)
policy_reward_max[policy_id] = np.max(rewards)
# Show as histogram distributions.
hist_stats["policy_{}_reward".format(policy_id)] = rewards
for k, v_list in custom_metrics.copy().items():
filt = [v for v in v_list if not np.any(np.isnan(v))]
if keep_custom_metrics:
custom_metrics[k] = filt
else:
custom_metrics[k + "_mean"] = np.mean(filt)
if filt:
custom_metrics[k + "_min"] = np.min(filt)
custom_metrics[k + "_max"] = np.max(filt)
else:
custom_metrics[k + "_min"] = float("nan")
custom_metrics[k + "_max"] = float("nan")
del custom_metrics[k]
for k, v_list in perf_stats.copy().items():
perf_stats[k] = np.mean(v_list)
estimators = collections.defaultdict(lambda: collections.defaultdict(list))
for e in estimates:
acc = estimators[e.estimator_name]
for k, v in e.metrics.items():
acc[k].append(v)
for name, metrics in estimators.items():
for k, v_list in metrics.items():
metrics[k] = np.mean(v_list)
estimators[name] = dict(metrics)
return dict(
episode_reward_max=max_reward,
episode_reward_min=min_reward,
episode_reward_mean=avg_reward,
episode_len_mean=avg_length,
episode_media=dict(episode_media),
episodes_this_iter=len(new_episodes),
policy_reward_min=policy_reward_min,
policy_reward_max=policy_reward_max,
policy_reward_mean=policy_reward_mean,
custom_metrics=dict(custom_metrics),
hist_stats=dict(hist_stats),
sampler_perf=dict(perf_stats),
off_policy_estimator=dict(estimators),
)
def _partition(
episodes: List[RolloutMetrics],
) -> Tuple[List[RolloutMetrics], List[OffPolicyEstimate]]:
"""Divides metrics data into true rollouts vs off-policy estimates."""
rollouts, estimates = [], []
for e in episodes:
if isinstance(e, RolloutMetrics):
rollouts.append(e)
elif isinstance(e, OffPolicyEstimate):
estimates.append(e)
else:
raise ValueError("Unknown metric type: {}".format(e))
return rollouts, estimates
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